NPT Packet System Specifications

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Version 4.0

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Catalog No: X91658

Drawing No: 417006-2017-013-A00 April 2015

1st Edition

ECI's NPT-1200, NPT-1020, and NPT-1010 are CE2.0 certified.

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3.9.6 Electrical GbE SFP (ETGbE) ... 3-9 3.10 Physical Specifications ... 3-9 3.11 Dimensions (H x W x D) ... 3-9 3.12 Weight ... 3-9 3.13 Power ... 3-9 3.14 NPT-1010 Power Consumption ... 3-10 3.15 Environmental Conditions ... 3-10 3.15.1 Operation ... 3-10 3.15.2 Storage (Packed) ... 3-11 3.15.3 Handling and Transportation ... 3-11

3.16 EMC ... 3-11 3.17 Safety ... 3-11 3.18 Laser Safety ... 3-11 3.19 Reliability ... 3-11 3.19.1 Life ... 3-11 3.19.2 Availability ... 3-11

4 NPT-1021 Specifications ... 4-1

4.1 NPT-1021 Shelf Capacity ... 4-1 4.2 Cross-Connect Specifications ... 4-1 4.3 Switching Specifications ... 4-1 4.4 Redundancy ... 4-1 4.5 Synchronization ... 4-1 4.6 IEEE 1588v2 Specification ... 4-2 4.7 Acoustic Noise ... 4-2 4.8 Traffic Protection ... 4-2 4.9 Jitter and Wander ... 4-3 4.10 I/O Interfaces ... 4-3 4.10.1 2.048 Mbps (E1) ... 4-3 4.10.2 1.544 Mbps (T1) ... 4-3 4.10.3 STM-1 Electrical ... 4-3 4.10.4 STM-1/OC-3 Optical ... 4-3 4.10.5 STM-4 Optical ... 4-4 4.11 Management ... 4-4

4.11.1 Management and Alarm Interfaces ... 4-4 4.11.2 Management Communication Channel ... 4-4 4.11.3 Alarms and Performance ... 4-5

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4.12 SDH Interfaces... 4-5

4.12.1 STM-1 (155.52 Mbps ± 4.6 ppm) ... 4-5 4.12.2 STM-4 (622 Mbps ± 4.6 ppm) ... 4-7

4.13 Ethernet Specifications ... 4-9

4.13.1 NPT-1021 (Packet Switch without CPS50) ... 4-9 4.13.2 NPT-1021 (Packet Switch with CPS50) ... 4-11 4.13.3 DHGE_4E ... 4-13 4.13.4 DHGE_8 ... 4-14 4.13.5 DMCES1_4 ... 4-14 4.13.6 MSE1_16 ... 4-15 4.13.7 MSC_2_8 ... 4-15 4.13.8 Ethernet Transceivers ... 4-16 4.13.9 CWDM and DWDM GbE ... 4-17 4.13.10 Ethernet SFP+ Transceivers ... 4-18 4.13.11 CSFP Client Transceivers... 4-21 4.13.12 Electrical GbE SFP (ETGbE) ... 4-22

4.14 MXP10 Base Card Configurations ... 4-22

4.14.1 MXP10 Base Card Modules and Transceivers ... 4-22 4.14.2 MXP10 Latency ... 4-23

4.15 Optical Amplifier Modules ... 4-24 4.16 Dispersion Compensation Modules ... 4-25 4.17 EM_10E Specifications ... 4-26

4.17.1 EM_10E Total Capacity ... 4-26 4.17.2 EM_10E DXC1/0 XC Capacity... 4-27 4.17.3 Timing ... 4-27 4.17.4 FXO/FXS Interface ... 4-27 4.17.5 Ringer Characteristics ... 4-28 4.17.6 2 Wire/4 Wire/6 Wire and E&M Interface ... 4-28 4.17.7 Codir_4E Interface ... 4-29 4.17.8 OMNI_E Interface ... 4-29 4.17.9 V.24 Interface ... 4-29 4.17.10 V.35 Interface ... 4-29 4.17.11 V.36 Interface ... 4-30 4.17.12 RS-422/449 Interface ... 4-30 4.17.13 SM_C37.94 Interface ... 4-30 4.17.14 SM_C37.94S Specifications ... 4-30 4.18 Physical Specifications ... 4-32

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4.18.1 Dimensions (H x W x D) ... 4-32 4.18.2 Weight ... 4-32 4.18.3 Power ... 4-32 4.18.4 INF_E2U ... 4-33 4.18.5 AC_PS-B1U Module ... 4-33 4.18.6 AC_PS-E2U ... 4-33 4.18.7 INF-B1U Module ... 4-33 4.18.8 NPT-1021 Power Consumption ... 4-34 4.18.9 Environmental Conditions ... 4-36 4.18.10 EMC ... 4-36 4.18.11 Safety... 4-36 4.18.12 Laser Safety ... 4-37 4.18.13 Reliability ... 4-37

5 NPT-1050 Specifications ... 5-1

5.1 Cross-Connect Specifications ... 5-1 5.1.1 Switching Specifications ... 5-1 5.1.2 NPT-1050 Shelf Capacity ... 5-1 5.2 Traffic Protection ... 5-1 5.3 Redundancy ... 5-1 5.4 Tributary Protection ... 5-2 5.5 Synchronization ... 5-2 5.6 IEEE 1588v2 Specification ... 5-2 5.7 Acoustic Noise ... 5-3 5.8 Jitter and Wander ... 5-3 5.9 I/O Interfaces ... 5-3 5.9.1 2.048 Mbps (E1) ... 5-3 5.9.2 1.544 Mbps (T1) ... 5-3 5.9.3 STM-1 Electrical ... 5-3 5.9.4 STM-1/OC-3 Optical ... 5-4 5.9.5 STM-4 Optical ... 5-4 5.10 Management ... 5-4

5.10.1 Management and Alarm Interfaces ... 5-4 5.10.2 Alarms and Performance ... 5-4 5.10.3 Management Communication Channel ... 5-5

5.11 SDH Interfaces... 5-6

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5.11.2 STM-4 (622 Mbps ± 4.6 ppm) ... 5-8 5.11.3 STM-16 (2488 Mbps ± 4.6 ppm) ... 5-10 5.11.4 CWDM and DWDM STM-16/GbE (2488 Mbps ± 4.6 ppm) ... 5-12 5.12 Ethernet Specifications ... 5-13 5.12.1 MCPS100 ... 5-13 5.12.2 AIM100 ... 5-16 5.12.3 DHXE_2 ... 5-16 5.12.4 DHGE_4E ... 5-16 5.12.5 DHGE_8 ... 5-17 5.12.6 DHGE_16 ... 5-17 5.12.7 DHGE_24 ... 5-18 5.12.8 DHFE_12 ... 5-18 5.12.9 DHFX_12 ... 5-18 5.12.10 DMCES1_4 ... 5-18 5.12.11 DMCE1_32 ... 5-19 5.12.12 MSE1_16 ... 5-20 5.12.13 MSC_2_8 ... 5-20 5.12.14 MPoE_12G ... 5-21 5.12.15 Ethernet Transceivers ... 5-23 5.12.16 CWDM and DWDM STM-16/GbE (2488 Mbps ± 4.6 ppm) ... 5-24 5.12.17 Ethernet SFP+ Transceivers ... 5-25 5.12.18 CSFP Client Transceivers... 5-28 5.12.19 Electrical GbE SFP (ETGbE) ... 5-29

5.16.1 EM_10E Total Capacity ... 5-33 5.16.2 EM_10E DXC1/0 XC Capacity... 5-33 5.16.3 Timing ... 5-34 5.16.4 FXO/FXS Interface ... 5-34 5.16.5 Ringer Characteristics ... 5-35 5.16.6 2 Wire/4 Wire/6 Wire and E&M Interface ... 5-35 5.16.7 Codir_4E Interface ... 5-36 5.16.8 OMNI_E Interface ... 5-36

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5.16.9 V.24 Interface ... 5-36 5.16.10 V.35 Interface ... 5-36 5.16.11 V.36 Interface ... 5-36 5.16.12 RS-422/449 Interface ... 5-37 5.16.13 SM_C37.94 Interface ... 5-37 5.16.14 SM_C37.94S Specifications ... 5-37 5.17 Physical Specifications ... 5-38 5.17.1 Dimensions (H x W x D) ... 5-39 5.17.2 Weight ... 5-39 5.17.3 Power ... 5-39 5.17.4 INF-B1UH ... 5-39 5.17.5 INF_E2U ... 5-39 5.17.6 AC_PS-E2U ... 5-40 5.17.7 NPT-1050 Power Consumption ... 5-40 5.17.8 Environmental Conditions ... 5-42 5.17.9 EMC ... 5-43 5.17.10 Safety... 5-43 5.17.11 Laser Safety ... 5-43 5.17.12 Reliability ... 5-43

6 NPT-1200 Specifications ... 6-1

6.1 Cross-Connect Specifications ... 6-1 6.1.1 Switching Specifications ... 6-1 6.1.2 NPT-1200 Shelf Capacity ... 6-1 6.2 Traffic Protection ... 6-1 6.3 Redundancy ... 6-2 6.4 Tributary Protection ... 6-2 6.5 Synchronization ... 6-2 6.6 IEEE 1588v2 Specification ... 6-3 6.7 Throughput Test - RFC2544 ... 6-3 6.8 Acoustic Noise ... 6-4 6.9 Jitter and Wander ... 6-4 6.10 I/O Interfaces ... 6-4

6.10.1 2.048 Mbps (E1) ... 6-4 6.10.2 1.544 Mbps (T1) ... 6-4 6.10.3 STM-1 Electrical ... 6-4 6.10.4 STM-1/OC-3 Optical ... 6-5

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6.10.5 STM-4 Optical ... 6-5

6.11 Management ... 6-5

6.11.1 Management and Alarm Interfaces ... 6-5 6.11.2 Alarms and Performance ... 6-5 6.11.3 Management Communication Channel ... 6-6

6.12 SDH Interfaces... 6-6 6.12.1 STM-1 (155.52 Mbps ± 4.6 ppm) ... 6-7 6.12.2 STM-4 (622 Mbps ± 4.6 ppm) ... 6-8 6.13 Ethernet Specifications ... 6-11 6.13.1 CPS100... 6-11 6.13.2 CPS320... 6-13 6.13.3 DHXE_2 ... 6-16 6.13.4 DHXE_4 ... 6-16 6.13.5 DHGE_4E ... 6-16 6.13.6 DHGE_8 ... 6-17 6.13.7 DHGE_16 ... 6-17 6.13.8 DHGE_24 ... 6-17 6.13.9 DHFE_12 ... 6-18 6.13.10 DHFX_12 ... 6-18 6.13.11 DMCES1_4 ... 6-18 6.13.12 DMCE1_32 ... 6-19 6.13.13 MSE1_16 ... 6-19 6.13.14 MSC_2_8 ... 6-20 6.13.15 Ethernet Transceivers ... 6-21 6.13.16 CWDM and DWDM GbE ... 6-22 6.13.17 Ethernet SFP+ Transceivers ... 6-23 6.13.18 CSFP Client Transceivers... 6-26 6.13.19 Electrical GbE SFP (ETGbE) ... 6-27

6.17.1 EM_10E Total Capacity ... 6-31 6.17.2 EM_10E DXC1/0 XC Capacity... 6-32 6.17.3 Timing ... 6-32

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6.17.4 FXO/FXS Interface ... 6-32 6.17.5 Ringer Characteristics ... 6-33 6.17.6 2 Wire/4 Wire/6 Wire and E&M Interface ... 6-33 6.17.7 Codir_4E Interface ... 6-34 6.17.8 OMNI_E Interface ... 6-34 6.17.9 V.24 Interface ... 6-34 6.17.10 V.35 Interface ... 6-34 6.17.11 V.36 Interface ... 6-35 6.17.12 RS-422/449 Interface ... 6-35 6.17.13 SM_C37.94 Interface ... 6-35 6.17.14 SM_C37.94S Specifications ... 6-35 6.18 Physical Specifications ... 6-37 6.18.1 Dimensions (H x W x D) ... 6-37 6.18.2 Weight ... 6-37 6.18.3 Power ... 6-37 6.18.4 INF-1200 ... 6-38 6.18.5 INF_E2U ... 6-38 6.18.6 AC_PS-E2U ... 6-38 6.18.7 NPT-1200 Power Consumption ... 6-38 6.18.8 Environmental Conditions ... 6-41 6.18.9 EMC ... 6-42 6.18.10 Safety... 6-42 6.18.11 Laser Safety ... 6-42 6.18.12 Reliability ... 6-42

7 Standards and References ... 7-1

7.1 Broadband Forum ... 7-1 7.2 Environmental Standards ... 7-1 7.3 ETSI: European Telecommunications Standards Institute ... 7-1 7.4 IEC: International Electrotechnical Commission ... 7-2 7.5 IEEE: Institute of Electrical and Electronic Engineers ... 7-3 7.6 IETF: Internet Engineering Task Force ... 7-4 7.7 ISO: International Organization for Standardization ... 7-7 7.8 ITU-T: International Telecommunication Union ... 7-7 7.9 MEF: Metro Ethernet Forum ... 7-11 7.10 NIST: National Institute of Standards and Technology ... 7-12 7.11 North American Standards ... 7-12

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7.12 OMG: Object Management Group ... 7-13 7.13 TMF: TeleManagement Forum ... 7-13 7.14 Web Protocol Standards ... 7-13

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List of Figures

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List of Tables

Table 3-1: GbE/FX client transceivers ... 3-7 Table 3-2: GbE bidirectional client transceivers ... 3-7 Table 3-3: CWDM and DWDM GbE transceivers ... 3-8 Table 3-4: Power Dissipation ... 3-10 Table 4-1: STM-1 interface ... 4-5 Table 4-2: STM-1 bidirectional transceivers ... 4-6 Table 4-3: STM-4 transceivers ... 4-7 Table 4-4: STM-4 bidirectional transceivers ... 4-8 Table 4-5: GbE/FX client transceivers ... 4-16 Table 4-6: GbE bidirectional client transceivers ... 4-17 Table 4-7: CWDM and DWDM GbE transceivers ... 4-17 Table 4-8: ESFP+ transceivers ... 4-18 Table 4-9: SFP+ bidirectional client transceivers ... 4-19 Table 4-10: SFP+ C/DWDM transceivers ... 4-20 Table 4-11: CSFP client transceivers ... 4-21 Table 4-12: MXP10 latency data ... 4-23 Table 4-13: Optical amplifier specifications ... 4-25 Table 4-14: OM_DCMxx specifications ... 4-26 Table 4-15: FXO and FXS specifications ... 4-27 Table 4-16: Power Dissipation ... 4-36 Table 5-1: NPT-1050 packet capacity per I/O slot ... 5-1 Table 5-2: STM-1 interface ... 5-6 Table 5-3: STM-1 bidirectional transceivers ... 5-7 Table 5-4: STM-4 transceivers ... 5-8 Table 5-5: STM-4 bidirectional transceivers ... 5-9 Table 5-6: STM-16 transceivers ... 5-10 Table 5-7: STM-16 bidirectional transceivers ... 5-11 Table 5-8: CWDM and DWDM STM-16/GbE interfaces ... 5-12 Table 5-9: TDM Ethernet Layer 2/MPLS-TP cards ... 5-13 Table 5-10: Hybrid Ethernet Layer 2/MPLS-TP cards ... 5-13 Table 5-11: GbE/FX client transceivers ... 5-23 Table 5-12: GbE bidirectional client transceivers ... 5-24 Table 5-13: CWDM and DWDM STM-16/GbE transceivers ... 5-24 Table 5-14: ESFP+ transceivers ... 5-25 Table 5-15: SFP+ bidirectional client transceivers ... 5-26 Table 5-16: SFP+ C/DWDM transceivers ... 5-27 Table 5-17: CSFP client transceivers ... 5-28 Table 5-18: MXP10 latency data ... 5-30 Table 5-19: Optical amplifier specifications ... 5-32 Table 5-20: OM_DCMxx specifications ... 5-32

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Table 5-21: FXO and FXS specifications ... 5-34 Table 5-22: Power Consumption ... 5-40 Table 6-1: NPT-1200 packet capacity per I/O slot ... 6-1 Table 6-2: STM-1 interface ... 6-7 Table 6-3: STM-1 bidirectional transceivers ... 6-8 Table 6-4: STM-4 transceivers ... 6-8 Table 6-5: STM-4 bidirectional transceivers ... 6-10 Table 6-6: Ethernet Layer 2/MPLS-TP cards ... 6-11 Table 6-7: GbE/FX client transceivers ... 6-21 Table 6-8: GbE bidirectional client transceivers ... 6-21 Table 6-9: CWDM and DWDM GbE transceivers ... 6-22 Table 6-10: ESFP+ transceivers ... 6-23 Table 6-11: SFP+ bidirectional client transceivers ... 6-24 Table 6-12: SFP+ C/DWDM transceivers ... 6-25 Table 6-13: CSFP client transceivers ... 6-26 Table 6-14: MXP10 latency data ... 6-28 Table 6-15: Optical amplifier specifications ... 6-30 Table 6-16: OM_DCMxx specifications ... 6-31 Table 6-17: FXO and FXS specifications ... 6-32 Table 6-18: Power Consumption ... 6-38 Table 6-19: Power Dissipation ... 6-41

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1 About This Manual

1.1 Overview

The NPT System Specifications describes the technical specifications of the platforms, cards, modules, and transceivers included in each platform.

1.2 _{Intended Audience}

This manual is intended for field engineers, network designers, and other qualified service personnel responsible for designing, installing, and maintaining the NPT products and its accessories.

1.3 Document Organization

This System Specifications contains the following information:

 NPT principals

 NPT-1200 specifications

 Standards and references

1.4 _{Notes and Warnings}

When applicable, this guide uses the following notes and warnings:

N

OTE: clarifying information, specific instructions, commentary, sidelights, or interesting points of information.

C

AUTION: failure to follow directions could result in damage to equipment or loss of

information.

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L

ASER

W

ARNING: how to avoid personal injury. All personnel involved in equipment installation, operation, and maintenance must be aware that laser radiation is invisible. Therefore, although protective devices generally prevent direct exposure to the beam, personnel must strictly observe the applicable safety precautions and, in particular, must avoid staring into optical connectors, either directly or using optical instruments.

ESD

: information on how to avoid discharge of static electricity and subsequent damage to the unit.

T

IP: helpful information and handy hints that can make your task easier.

I

MPORTANT: essential information to which you must pay attention.

1.5 _{Related Documentation}

The following publications may be of assistance to you in the installation and commissioning processes of 9200 series:

 NPT General Description  NPT Reference Manual

 NPT-1200 Installation and Maintenance Manual  NPT-1050 Installation and Maintenance Manual  NPT-1021 Installation and Maintenance Manual  NPT-1010 Installation and Maintenance Manual

 EMS-APT Documentation Suite  LCT-APT Documentation Suite  LightSoft® Documentation Suite

1.6 _{How to Obtain ECI Technical Documentation}

To obtain technical documentation related to any ECI product, contact: ECI Telecom Ltd.

ECI Documentation Group 30 Hasivim St.

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Fax: +972-3-9268060

Email: [email protected]

1.7 Technical Assistance

The configuration, installation, and operation of NPT series and its operation in a network are highly specialized processes. Due to the different nature of each installation, some planning aspects might not be covered in this manual.

If you have questions or concerns about your network design or if you require installation personnel to perform the actual installation process, ECI maintains a staff of design engineers and highly trained field service personnel. The services of this group are available to customers at any time.

To obtain design assistance or a network installation plan from ECI's Customer Support team, contact your ECI sales representative. With any support related issues, technical or logistic, please contact the ECI Customer Support center at your location. If you are not familiar with that location, or contact our Customer Support Center action line at:

Telephone +972-3-9266000 Telefax +972-3-9266370

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2 Introducing the Packet NPT

2.1 Native Packet Transport

NPT is a family of carrier-class MPLS-based multiservice packet-optical transport platforms, offering best-in-class carrier Ethernet and packet transport solutions for the metro. NPT combines the gold standard of transport network reliability and ease of management with packet efficiency. Through convergence of Ethernet/MPLS, WDM, and OTN - managed through a state-of-the-art GUI-based intuitive NMS - NPT offers a powerful, flexible packet transport solution for the lowest total cost of ownership (TCO).

The NPT is based on a flexible switching architecture that provides a cost-effective, risk-free means for operators to tailor their configuration to any possible network scenario. This handling flexibility offers important advantages throughout the network transition from TDM to packet, enabling operators to adapt their network configuration over time to match changing network requirements, optimized per specific network location.

NPT is equipped with a central Ethernet/MPLS switch and supports TDM services through Circuit Emulation Service (CES). Equipped with a broad mix of Ethernet and TDM interfaces, NPT offers cost-optimized multiservice packet transport, supporting delivery of both packet and TDM based services over a converged packet infrastructure.

NPT complies with all MEF CE2.0 service standards, as well as offering extensive synchronization, protection, and resiliency schemes. Whether the network traffic is being transported over existing legacy equipment, or over newer packet-based equipment supporting only Ethernet interfaces, NPT equipment can be configured to provide the optimal solution. As the network evolves, there is no need for costly replacements of existing infrastructure or cumbersome external adaptive boxes.

NPT's flexible traffic-handling architecture offers the most cost-efficient traffic handling in a packet environment while supporting all transport attributes. The result is the lowest TCO throughout the network life cycle, not only over the course of the network transition from TDM-centric to packet-centric, but also when building new carrier Ethernet and packet-based transport networks.

The NPT's value propositions include:

 Lowest TCO

 Flexible multi-service (Packet, Optics)

 Cost effective scalability through the modular architecture  Multiservice support for TDM (CES) and data

 Transport grade service assurance

 Performance: Predictable and guaranteed

 Availability: Carrier grade redundancy and protection

 Security: Secure and transparent

 E2E control:

 Intuitive GUI: Easy point and click operation

 Unified multi-layer NMS: Enabling smooth, converged control  Visibility: Providing extensive OAM for E2E SLA visibility

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2.2 _{NPT Product Lines: Tailored to Your Needs}

NPT is a family of future-proof carrier-class multiservice packet optical transport platforms optimized for metro carrier Ethernet and packet transport networks. The NPT family provides a comprehensive selection of platforms, covering a range of size, configuration, and service level requirements. The broad range of NPT products enables you to find the best balance of cost and performance.

NPT platforms are organized into three groups:

 NPT metro core platform:

 NPT-1800: A compact (8U) high capacity multiservice packet optical transport platform for the

metro core, offering ultimate flexibility and cost effective aggregation and delivery of Ethernet/MPLS TP and CES services for metro and regional networks (future release).

 NPT metro aggregation platforms:

 NPT-1200: A compact (2U) and fully redundant multiservice packet-optical aggregation

transport system, offering multidimensional flexibility together with high capacity and cost-effective aggregation and delivery of Ethernet/MPLS-TP, OTN, and TDM (CES) services.

 NPT-1050: A very compact (1U) fully redundant multiservice packet-optical aggregation

transport system, offering multidimensional flexibility together with high capacity and cost-effective aggregation and delivery of Ethernet/MPLS-TP, OTN, and TDM (CES) services.

 NPT access platforms

 NPT-1021: A compact (1U) multiservice packet-optical access system, offering multidimensional

flexibility with high capacity and cost-effective aggregation and delivery of Ethernet/MPLS-TP, OTN, and TDM (CES) services.

 NPT-1010: A small, fully managed, packet-based demarcation system, offering cost-effective

CPE/CLE for business customers and small 3G/LTE cell sites and delivery of Ethernet/MPLS-TP and TDM up to customer premises.

2.3 Expansion Platform

The expansion platform is a fully modular 2U unit that can be installed on top of the NPT-1800/NPT-1200/NPT-1021/NPT-1050 platforms to expand its capabilities. All traffic processing, cross-connect, packet switching, timing and synchronization, control and communication and main power supply functions are performed by the corresponding system in the base unit on which the expansion unit is installed.

In addition the expansion platform has separate sections including:

 Power feed: Including local power supply circuits on each card and two INF_E2U units

 Cooling fans: Provided by the FCU_E2U unit on the right side of the expansion unit

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3 NPT-1010 Specifications

3.1 NPT-1010 Shelf Capacity

The NPT-1010 is designed around a centralized packet switch that supports any to any direct data card connectivity. The NPT-1010 offers a packet switching capacity of up to 5 Gbps mainly for business CPE and micro cell sites.

3.2 _{Cross-Connect Specifications}

This section describes the cross-connect specifications for the NPT-1021.

3.2.1 Switching Specifications

Switching capacity 5 Gbps MPLS processing (IMIX) 5 Gbps

3.3 _Redundancy

DC power system Dual power feeding 1+1 redundancy

3.4 Synchronization

Multiple types of timing references available from packet multiple timing sources:

 E1/T1 interfaces

 From any GbE port that supports synchronous Ethernet

 1588v2 PTP Ordinary Clock

 Synchronization Status Message (SSM) support is provided (over ESMC)

3.5 Traffic Protection

ERPS within 50 ms LSP 1:1 linear protection within 50 ms FRR and dual FRR within 50 ms

LAG 1:1 Within 50 ms (Static) Within 100ms (LACP)

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3.6 _{Jitter and Wander}

Applicable specifications ITU T G.823, G.825

3.7 _{I/O Interfaces}

This section describes the specifications for the I/O interfaces.

3.7.1 _{2.048 Mbps (E1)}

Physical level G.703, Paragraph 6/s ±50ppm Frame options Unframed, framed (ITU-T G.704) Line code HDB3

Line impedance 120 Ω balanced ± 5%

3.7.2 _{1.544 Mbps (T1)}

Physical level ANSI T1.403-1999

Frame options Unframed, framed (ANSI T1.107-2002 [R2006]) Line code AMI/B8ZS

Line impedance 100 Ω balanced

3.8 _Management

Applicable specifications G.784, G.774, M.3010, M.3100 LightSoft (ECI Telecom Network

Manager) server and client for managing all ECI Telecom equipment

on SUN workstation(s)

EMS-APT (element manager) on PC or SUN workstation(s) LCT-APT (local craft terminal) on PC

3.8.1 _{Management and Alarm Interfaces}

CMIP-like over TCP/IP to EMS-APT

SNMP V3 to third-party SNMP-based management solution (monitoring only) MTNM from EMS-APT to LightSoft or other TMN

10/100BaseT to LCT-APT Rack Alarm Panel

(22)

3.8.2 _{Management Communication Channel}

MCC Interfaces Management LAN interface for DCN In-band MCC for Ethernet/MPLS network IP & Routing protocol IPv4

OSPFv2 IP route table capacity 2000

Interface types Numbered, unnumbered Link Layer

Encapsulation IEEE 802.3 Ethernet – For management port or in-band MCC _{IEEE 802.1q – For in-band MCC} IEEE 802.1ad – For in-band MCC

In-band MCC interfaces MCC over MoE (IP over Ethernet) MCC over single PB port

Management VLAN In-band MCC processing capacity 3 Mbps Number of Management VLAN 1 Maximum number of MCC channels 4 MCC bandwidth per interface 256 Kbps~4 Mbps@ 256Kbps

3.8.3 Alarms and Performance

Performance concept ITU-T G.821, G.826, Bellcore GR-820-CORE Alarm concept G.783

Alarm types LED indicators, dry contacts,

(per subrack), external alarm inputs and outputs Alarm classes Critical, Major, Minor, Warning

3.9 _{Ethernet Specifications}

This section describes the Ethernet specifications for the NPT-1010.

3.9.1 _NPT-1010

GbE Interface type 1000Base-SX, LX, EX, ZX, BD, colored 100Base-FX (SM, MM)

10/100/1000Base-T

GPON ONU interface (with GTGBE_L3BD) Max. number of GbE ports 8

(23)

Max. number of 1000Base-X ports 4 Max. number of 100Base-FX ports 4

Max. number of 10/100/1000Base-T ports 8 (with ETGBE) Max. number of GPON ONU interfaces 4 (with GTGBE_L3BD) Number of PoE ports 4 x 10/100/1000Base-T PoE PSE pin-out IEEE 802.3af, Alternative A Supported PD type IEEE 802.3at type 1, type 2 Maximum PoE power per port 30 W

Number of Sync-E ports 8 (all ports)

Supported types of 1588v2 PTP Clock OC (slave) with TMSE1_8 or TM10 two-step TC

Switch capacity 5 Gbps MAC address table capacity 64 K MAC address table capacity per VSI 32 K

MAC learning rate 1.44M MACs/sec

Supported VLAN quantity 512*4094, as per IEEE 802.1ad Supported C-VLAN groups 8000

Supported MPLS P2P tunnel queues 2000 Supported Bidirectional LSPs 256 Maximum number of LSP1:1 Linear

Protection Domains 128 Supported MPLS P2MP tunnels 8 Supported maximum PWs 4000 Max number of PW redundancy groups

(without PW status signaling) 16 Max number of PW Redundancy with PW state signaling or PW with PW status signaling

256

Supported maximum VSIs 512 Supported maximum policers 512 Supported maximum policer profiles 128

Sync-E 8 GbE ports CIR/EIR granularity of policer 64Kb/s (0~2Mb/s)

1Mb/s (2Mb/s~full port rate) CIR granularity of high CoS Shaper 128K~512Kbps@128Kbps

1~16Mbps@1Mbps 16~64Mbps@2Mbps 64~256Mbps@4Mbps 256~1280Mbps@8Mbps

(24)

CIR granularity of low CoS bandwidth 128K~512Kbps@128Kbps 1~16Mbps@1Mbps 16~64Mbps@2Mbps 64~256Mbps@4Mbps 256~1280Mbps@8Mbps PIR granularity of E-LSP bandwidth 1~No rate limit@1Mb/s Maximum sites per VPLS instance 170-number of local ports Maximum number of UNI/NNI ports per VSI 8

Queues in each egress port 8 MSTP/ERPS instance number 32 Supported maximum multicast groups per

Rooted MP leaf VSI 1024

LAG support (including MC-LAG) up to 4 LAGs with up to 8 port members per LAG Supported BFD intervals 3.33 msec, 10 msec, 100 msec, 1000 msec Maximum number of BFD sessions 600

Maximum number of BFD sessions over

Bidirectional LSP 500 Maximum number of BFD sessions for

section Maximum number of ports (8) Maximum number of BFD templates 10

Supported CFM intervals 3.33 msec, 10 msec, 100 msec 1 sec,10 sec, 60 sec, 600 sec (slow) Maximum number of 3.33 msec/10

msec/100 msec/1000 msec CCM sessions 500 Maximum aggregated packet rate for slow

CCM (1 sec/10 sec/1 min/10 min) 200 pps Total number of 3.33 msec BFD and CCM

sessions <=100 Total number of 10 msec/100 msec CCM

and 10 msec/100 msec/1000 msec BFD sessions

<=500

Port ACL profiles per switch 64 Maximum number of ACE per port ACL

(25)

Standards compliance IEEE802.1p, IEEE802.1Q, IEEE802.1ad, IEEE802.1w, IEEE802.1s, IEEE802.1ag

IEEE802.3, IEEE802.3x, IEEE802.3ad, IEEE802.3ah, IEEE802.3u, IEEE802.3z

RFC3031, RFC3032, RFC3916, RFC3985, RFC4090

RFC5586, RFC5654, RFC5880, RFC5921, RFC6428, RFC6378, RFC6427,RFC2544 (up to 1G)

ITU-T Y.1710, Y.1711, Y.1731,

G.707, G.783, G.7041 (GFP), G.7042 (LCAS), G.8032 V1 MEF9, MEF10, MEF14

3.9.2 _{TMSE1_8}

Interfaces 8 x E1/T1

CES service Unstructured E1/T1 (SAToP) Channelized E1/T1 (CESoPSN) Number of CES services 8

Encapsulation Protocol CESoETH, CESoMPLS CES clock recovery mechanism Adaptive

Differential Reference clock frequency for DCR

RTP timestamp 19.44 MHz _{25 MHz} Adaptive timing domain 8

Differential timing domain 8

Tx Timing mode Recovered from CES stream System timing

Loop timing

Payload time 125~8000us@125 µsec Jitter buffer Max delay var 1000-64000 @1000 µsec Jitter buffer Min latency 500-32000 @500 µsec Standards compliance IEFT RFC4553, RFC5086

MEF8, MEF3 ITU-T Y.1413, G.703

3.9.3 TM10 (1588v2 Specifications)

Supported types of 1588v2

PTP Clock 1 x OC slave Type of PTP clock interface 1 x 1PPS

1 x ToD Connector type of 1PPS

(26)

Electrical characteristic of

1PPS and ToD interface RS-422/V.11 PTP message encapsulation UDP/IPv4 ToD message format GPRMC Standards compliance IEEE 1588v2

3.9.4 Ethernet Transceivers

Table 3-1: GbE/FX client transceivers

OTGBE_SX OTGBE_LX OTGBE_ZX OTGBE_EX OTFE_MM OTFE_SM

Transmitter type GbE/FC1/ FICON(2) short-reach laser, 850 nm, multimode GbE/FC1/ FICON(2) long-reach laser, 1310 nm, single mode GbE/FC1/ FICON(2) very long-reach laser, 1550 nm, single mode GbE/FC1/ FICON(2) very long-reach laser, 1550 nm, single mode FX, short-reach laser, 1310 multimode FX, short-reach laser, 1310 nm, single mode Data rate (nominal) (Gbps) 1.0625/1.25/ 2.125 1.0625/1.25/ 2.125 1.0625/1.25/ 2.125 1.0625/1.25 0.125 0.125 Average launch power (dBm) Max. -3 -3 5 0 -15 -8 Min. -9 -11 0 -5 -20 -15 Min. transmitter extinction ratio (dB) 9 9 9 9 10 8.2

Data format 8B/10B 8B/10B 8B/10B 8B/10B N/A N/A

Average receiver sensitivity (dBm) Min. -20 -22 -22 -24 -31 -28 Typical -21 -25.5 -- -- -30 -- Max. receiver overload (dBm) 0 0 0 0 -14 -8 Typical Rx LOS level (dBm) -24 -29 -25 -25 < -33 < -28 Connector LC LC LC LC LC LC Fiber lengths 550 m (50/62.5 µm MMF) 10 km (9 µm SMF) 80 km (9 µm SMF) 40 km (9 µm SMF) 2000 m (50/62.5 µm MMF) 10 km (9 µm SMF)

Table 3-2: GbE bidirectional client transceivers

OTGBE_S3BD OTGBE_S5BD OTGBE_L3BD OTGBE_L5BD OTGBE_L5BD80 OTGBE_L6BD8

0

Transmitter type Bidirectional SFP,

1310 nm Bidirectional SFP, 1490 nm Bidirectional SFP, 1310 nm e Bidirectional SFP, 1490 nm Bidirectional SFP, 1490 nm Bidirectional SFP, 1590 nm Data rate (nominal)

(27)

OTGBE_S3BD OTGBE_S5BD OTGBE_L3BD OTGBE_L5BD OTGBE_L5BD80 OTGBE_L6BD8 0 Average launch power (dBm) -3 Max. -3 +2 +2 +4 +4 -10 Min. -10 -5 -5 -2 -2 Min. transmitter extinction ratio (dB) > 9 > 9 > 9 > 9 9 9 Data format 8B/10B 8B/10B 8B/10B 8B/10B 8B/10B 8B/10B Average receiver sensitivity (dBm) < -21 < -21 < -23 < -23 -26 -26 Min. overload (dB) -3 -3 -3 -3 -3 -3

Typical Rx LOS level

(dBm) < -22 < -22 < -24 < -24 < -26 < -26

Connector LC LC LC LC LC LC

Fiber lengths 10 km

(9 µm SMF) 10 km (9 µm SMF) 40 km (9 µm SMF) 40 km (9 µm SMF) 80 km (9 µm SMF) 80 km (9 µm SMF)

3.9.5 _{CWDM and DWDM GbE}

Table 3-3: CWDM and DWDM GbE transceivers

CWDM DWDM

SFP TRANSCEIVER NAME1 _{OTC25_PSxx} _{OTC25_1ALxx} _{OTR25_AVxx} _{OTR25_ABxx}

APPLICATION CODE2 _S-C8S1-1D2/5 G.695 S-C8L1-1D2/5 G.695 DW100L\--1D2/5IF DW100C\--1A2/5(C)F G.698.1/.2 DW100L\--1D2/5(C)F DW100C\--1A2/5(C)F G.698.1/.2 Operating wavelength (nm) 1464-1618 1464-1618 1530-1565 1530-1565 TRANSMITTER Source type SLM SLM SLM SLM Max. -20 dB width (nm) 1 1 0.4 0.4 Max. RMS width (nm) - - - -

Min. side mode suppression (dB) 30 30 30 30

Min. mean launched power (dBm) 0 0 0 0

Max. mean launched power (dBm) +5 +5 4 4

Min. extinction ratio (dB) 8.2 8.2 8.2 8.2

RECEIVER

1_{New optical SFP transceivers for existing SIO16 basecard.} 2_{Application code is in reference to ITU-T Recommendation G.691.}

(28)

CWDM DWDM

SFP TRANSCEIVER NAME1 _{OTC25_PSxx} _{OTC25_1ALxx} _{OTR25_AVxx} _{OTR25_ABxx}

Min. sensitivity (BER of 1*10-12) EOL (dBm) -21.5

(-23 GbE) -28 (-32 GbE) -28 -28

Min. overload (dBm) 0 -7 -9 -9

Max. receiver reflectance (dB) -27 -27 -27 -27

OPTICAL PATH BETWEEN S & R

Max. dispersion [ps/nm] 800

(40 km G.652) 1600 (80 km G.652) 2400 (120 km G.652) 3600 (180 km G.652)

Min. optical return loss of cable (dB) 24 24 -24 -24

Max. discrete reflectance (dB) -27 -27 -27 -27

Max. optical path penalty (dB) 1.5 2.5 <3 <2

3.9.6 _{Electrical GbE SFP (ETGbE)}

ETGBE Notes

Data rate 10/100/1000 Mbps IEEE 802.3 compatible

Connector RJ-45

Cable type CAT 5

Cable length 100m

3.10 _{Physical Specifications}

This section describes the physical specifications of the product.

3.11 Dimensions (H x W x D)

NPT-1010 shelf 44.4 mm x 223.5 mm x 224 mm Racks 2200/2600 mm x 600 mm x 300 mm

3.12 Weight

NPT-1010 2.5 kg

3.13 Power

(29)

Input DC voltage -40 VDC to -72 VDC Nominal DC power source -48 VDC or -60 VDC

Input AC voltage 110 VAC to 230 VAC; 50 Hz/60 Hz Nominal AC power source 220 VAC or 110 VAC

NPT-1010_DC power consumption Maximum 160 W (including PoE) NPT-1010_AC power consumption Maximum 120 W (Including PoE)

C

AUTION: The maximum allowed input DC voltage when using PoE is - 58 VDC.

3.14 NPT-1010 Power Consumption

Type Component name Power requirements

Commons NPT-1010_DC shelf with fans

(excluding PoE) 28 W NPT-1010_AC shelf with fans

(excluding PoE) 41 W Mslot modules TMSE1_8 _{9.8 W}

TM10 _{3.6 W}

Table 3-4: Power Dissipation

Power dissipation Typical 154 Btu/hour; maximum 456 Btu/hour

3.15 Environmental Conditions

N

OTE: Extended temperature range of -25 ºC to +70 ºC is supported. However, before installing the NPT-1010 in a street cabinet, consult the PLM at ECI.

3.15.1 Operation

Applicable specification ETSI-300-019-2-3 Class 3.3 Temperature range -25°C to +70°C

(30)

3.15.2 _{Storage (Packed)}

Applicable specification ETS-300-019-2-1 Class 1.2 Temperature range -40°C to +70°C

Relative humidity 10% to 100%

3.15.3 _{Handling and Transportation}

Applicable specification ETS-300-019-2-2 Class 2.2 Temperature range -40°C to +70°C

Relative humidity up to 95%

3.16 _EMC

Applicable specifications EN 300 386/2000

Applicable directive EMC directive 89/336 EEC

3.17 _Safety

Applicable specifications EN 60950/2000

Applicable CE directive LVD directive 73/23/EEC

3.18 Laser Safety

Applicable specification IEC 60825-1&2 (AS/NZS 2211.2)

3.19 Reliability

This section describes the reliability of the NPT-1010 platform with respect to product life and availability.

3.19.1 _Life

Expected lifetime of the NPT-1010 15 years

3.19.2 _Availability

Availability of service for an end-to-end service

(31)

4 NPT-1021 Specifications

4.1 NPT-1021 Shelf Capacity

The NPT-1021 is designed around a centralized packet switch card that supports any to any direct data card connectivity. The NPT-1021 offers a packet switching capacity of up to 10 Gbps or 60 Gbps (with a choice of two modes on the same unit).

4.2 _{Cross-Connect Specifications}

This section describes the cross-connect specifications for the NPT-1021.

4.3 Switching Specifications

Switching capacity 10 Gbps MPLS processing (IMIX) 10 Gbps Switching capacity with CPS50 60 Gbps MPLS processing with CPS50 (IMIX) 60 Gbps

4.4 _Redundancy

DC power system INF-B1U/INF-E2U 1+1 redundancy

4.5 _{Synchronization}

There are multiple types of timing references available from multiple timing sources:

 E1/T1 interfaces

 STM-1 of CES cards

 From any GbE/10 GbE port that supports synchronous Ethernet

 An external input/output of 2.048 MHz or 2.048 Mbps

 G.813 internal clock, free-run, accuracy of ±4.6 ppm

 1588v PTP Ordinary Clock

 Synchronization Status Marker (SSM) and Ethernet Synchronization Message Channel (ESMC) are provided

(32)

4.6 _{IEEE 1588v2 Specification}

Supported types of 1588v2 PTP Clock Ordinary clock (master or slave) Two-step E2E Transparent Clock (TC) Grandmaster work mode Unicast, two-step

Maximal aggregated unicast packet rate of OC master 2000 pps Max number of slave clocks supported per master 643

Synchronization source of master 1PPS/ToD

System clock (T0 of SEC/EEC TMU) Any Sync-E port of central PE Local OCXO

Supported IEEE1 588v2 profiles Frequency – ITU-T G.8265.1 Phase and time – ITU-T G.8275.1 Synchronization transport Frequency

Phase (with 1PPS) and time (with ToD) Type of PTP clock interface 1 x 1PPS

1 x ToD Connector type of 1PPS and ToD interface RJ-45 Electrical characteristic of 1PPS and ToD interface RS-422/V.11 PTP message encapsulation UDP/IPv4 ToD message format GPRMC Standards compliance IEEE 1588v2

ITU-T G.8275.1 ITU-T G.8265.1

4.7 _{Acoustic Noise}

Acoustic noise 53 dBA

4.8 _{Traffic Protection}

ERPS within 50 ms 1:1 linear protection within 50 ms Dual FRR (Fast ReRoute)/FRR within 50 ms LAG 1:1 within 50ms (static)

within 100ms (LACP) PW redundancy within 50 ms

(33)

4.9 _{Jitter and Wander}

Applicable specifications ITU T G.823, G.825

4.10 _{I/O Interfaces}

This section describes the specifications for the I/O interfaces.

4.10.1 _{2.048 Mbps (E1)}

Physical level G.703, Paragraph 6/s ±50ppm Frame options Unframed, framed (ITU-T G.704) Line code HDB3

Line impedance 120 Ω balanced ± 5%

4.10.2 _{1.544 Mbps (T1)}

Physical level ANSI T1.403-1999

Frame options Unframed, framed (ANSI T1.107-2002 [R2006]) Line code AMI/B8ZS

Line impedance 100 Ω balanced

4.10.3 _{STM-1 Electrical}

Physical level G.703, Paragraph 12 Bitrate 155.52 Mbps ± 20 ppm Frame G.707

Line code CMI

4.10.4 _{STM-1/OC-3 Optical}

Physical level G.957, Table 2 Wavelength 1310 nm, 1550 nm Bitrate 155.52 Mbps ± 4.6 ppm Transmission range S3, L3, L5, X3, X5, VL5

(34)

4.10.5 _{STM-4 Optical}

Physical level G.957, Table 3 Wavelength 1310 nm, 1550 nm Bitrate 622 Mbps ± 4.6 ppm Transmission range S3, L3, L5, V5

4.11 _Management

Applicable specifications G.784, G.774, M.3010, M.3100 LightSoft (ECI Telecom Network

Manager) server and client for managing all ECI Telecom equipment

on SUN workstation(s)

EMS-APT (element manager) on PC or SUN workstation(s) LCT-APT (local craft terminal) on PC

4.11.1 _{Management and Alarm Interfaces}

CMIP-like over TCP/IP to EMS-APT

SNMP V3 to third-party SNMP-based management solution (monitoring only) MTNM from EMS-APT to LightSoft or other TMN

10/100BaseT to LCT-APT Rack Alarm Panel

4.11.2 _{Management Communication Channel}

MCC Interfaces Management LAN interface for DCN In-band MCC for Ethernet/MPLS network GCC for OTN network

IP & Routing protocol IPv4 OSPFv2 IP Route table capacity 8000

Interface types Numbered, unnumbered

Link Layer Encapsulation IEEE 802.3 Ethernet – For management port or in-band MCC IEEE 802.1q – For in-band MCC

IEEE 802.1ad – For in-band MCC PPP over HDLC – For DCC or GCC In-band MCC interfaces MCC over MoE (IP over Ethernet)

MCC over single PB port Management VLAN In-band MCC processing capacity 10 Mbps

(35)

Number of Management VLAN 1 Maximum number of MCC channels 12

MCC bandwidth per interface 256 Kbps~4 Mbps@ 256Kbps

Maximum number of GCC channels 6 (only MXP10 OTU2/OTU2e ports support GCC) Maximum number of GCC channels 6 (only MXP10 OTU2/OTU2e ports support GCC) GCC termination type GCC0, GCC1, GCC2

4.11.3 Alarms and Performance

Performance concept ITU-T G.821, G.826, Bellcore GR-820-CORE Alarm concept G.783

Alarm types LED indicators, dry contacts,

(per subrack), external alarm inputs and outputs Alarm classes Critical, Major, Minor, Warning

4.12 SDH Interfaces

This section describes the specifications for the SDH interfaces.

4.12.1 _{STM-1 (155.52 Mbps ± 4.6 ppm)}

Table 4-1: STM-1 interface

SFP transceiver name OTR1_S3 OTR1_L3 OTR1_L5 OTR1_X3 OTR1_X5 OTR1_VL5 OTR1_VLC5

Application code4 _S-1.1 _L-1.1 _L-1.2

Operating wavelength (nm) 1261-1360 1263-1360 1480-1580 1270-1360 1500-1520 1500-1520 1544.5-1557.5

TRANSMITTER

Source type MLM SLM SLM SLM SLM SLM SLM

Max. RMS width (nm) 7.7 - - - -

Min. side mode suppression

ratio (dB) - 30 30 30 > 30 > 30 30

Min. mean launched power

(dBm) -15 -5 -5 +5 0 0 0

Max. mean launched power

(dBm) -8 0 0 0 +5 +5 5

Min. extinction ratio (dB) 8.2 10 10 10 10 10 10

RECEIVER5

4_{Application code is in reference to ITU-T Recommendation G.691.} 5_{Receiver units of SFPs (excluding bidirectional SFPs) are a wide-band type.}

(36)

SFP transceiver name OTR1_S3 OTR1_L3 OTR1_L5 OTR1_X3 OTR1_X5 OTR1_VL5 OTR1_VLC5

Application code4 _S-1.1 _L-1.1 _L-1.2

Min. sensitivity (BER of

1 * 10-12_{) EOL (dBm)} -28 -34 -34 -37 -35 -42 -42

Min. overload (dBm) -8 -10 -10 -8 -8 -5 -7

Max. receiver reflectance

(dB) - - -25 - - - -

OPTICAL PATH BETWEEN S & R

Max. dispersion (ps/nm) 96 - - - -

Min. optical return loss of

cable (dB) - - -20 - -20 - -

Max. discrete reflectance (dB - - -25 - -25 -25 -

Max. optical path penalty

(dB) 1 1 1 1 1 1 2

N

OTE: When selecting bidirectional transceivers, pay attention that they must operate in complementary pairs. For example: OTR1-S3BD can work only vis-a-vis OTR1-S5BD; OTR4-L3BD can work only vis-a-vis OTR4-L5BD, and so on. The transceivers in the following table are arranged in complementary pairs.

Table 4-2: STM-1 bidirectional transceivers

SFP transceiver name OTR1-S3BD OTR1-S5BD OTR1-L3BD OTR1-L5BD OTR1-X49BD OTR1-X59BD

Application code6 _{BD 3}7 _{BD 5}8 _L3BD _L5BD _X49BD _X59BD

Operating wavelength (nm) 1260-1360 1480-1580 1280-1360 1480-1580 1460-1500 1580-1620

TRANSMITTER

Source type MLM MLM MLM SLM SLM SLM

Max. RMS width (nm) 7 3 4 1 1 1

Min. side mode suppression ratio

(dB) - - - 30 30 30

Min. mean launched power (dBm) -14 -14 -5 -5 -5 -5

Max. mean launched power (dBm) -8 -8 0 0 0 0

Min. extinction ratio (dB) 10 10 10 10 10 10

RECEIVER9

6_{Application code is in reference to ITU-T Recommendation G.691.}

7_{BD 3: STM-1 single-fiber bidirectional SFP module with a 1310 nm TX wavelength.} 8_{BD 5: STM-1 single-fiber bidirectional SFP module with a 1550 nm TX wavelength.} 9_{Receiver units of SFPs (excluding bidirectional SFPs) are a wide-band type.}

(37)

SFP transceiver name OTR1-S3BD OTR1-S5BD OTR1-L3BD OTR1-L5BD OTR1-X49BD OTR1-X59BD

Application code6 _{BD 3}7 _{BD 5}8 _L3BD _L5BD _X49BD _X59BD

Min. sensitivity (BER of 1 * 10-12)

EOL (dBm) -32 -32 -32 -32 -34 -34

Min. overload (dBm) -8 -8 0 0 0 0

Max. receiver reflectance (dB) - - - -

Max. dispersion (ps/nm) - - - -

Min. optical return loss of cable (dB) -20 -20 - - - -

Max. discrete reflectance (dB) - - - -

Max. optical path penalty (dB) 1 1 1 1 1 1

4.12.2 _{STM-4 (622 Mbps ± 4.6 ppm)}

Table 4-3: STM-4 transceivers

SFP transceiver name OTR4_S3 OTR4_L3 OTR4_L5 OTR4_V5 OTR4_LC5

Application code10 _{S 4.1} _{L 4.1} _{L 4.2} _V5 _LC5 Operating wavelength (nm) 1293-1334 1274-1356 1296-1330 1300-1325 1480-1580 1550 1551 TRANSMITTER Source type MLM MLM SLM SLM CWDM Max. RMS width (nm) 4/2.5 - - - - Max. -20 dB width (nm) - 1 <1 1 1

Min. side mode suppression ratio (dB) - 30 30 30 30 Min. mean launched power (dBm) -15 -3 -3 0 -1

Max. mean launched power (dBm) -8 +2 +2 4 5

Min. extinction ratio (dB) 8.2 10 10 10 10

RECEIVER11

Min. sensitivity (BER of 1 * 10-12) EOL (dBm) -28 -28 -28 -34 -29

Min. overload (dBm) -8 -8 -8 -8 0

Max. receiver reflectance (dB) - -14 -27 -27 -27

(38)

SFP transceiver name OTR4_S3 OTR4_L3 OTR4_L5 OTR4_V5 OTR4_LC5

Application code10 S 4.1 L 4.1 L 4.2 V5 LC5

Max. dispersion (ps/nm) 46/74 92/109 1600 2400 1600 Min. optical return loss of cable (dB) - 20 24 - - Max. discrete reflectance (dB) - -25 -27 - -

Max. optical path penalty (dB) 1 1 1 1 2

N

OTE: When selecting bidirectional transceivers, pay attention that they must operate in complementary pairs. For example: OTR4-S3BD can work only vis-a-vis OTR4-S5BD; OTR4-L3BD can work only vis-a-vis OTR4-L5BD, and so on. The transceivers in the following table are arranged in complementary pairs.

N

OTE: OTR16 bidirectional SFPs (in the following table) are multirate transceivers that support both STM-4 and STM-16.

Table 4-4: STM-4 bidirectional transceivers

SFP transceiver name OTR4_S3BD OTR4_S5BD OTR4_L3BD OTR4_L5BD OTR16_X49B

D OTR16_X59BD Application code12 S3BD S5BD L3BD L5BD X49BD X59BD Operating wavelength (nm) 1260-1360 1480-1580 1260-1360 1480-1580 1460-1500 1560-1620 TRANSMITTER Source type MLM SLM MLM SLM SLM SLM Max. RMS width (nm) 3 1 3 1 1 1

Min. side mode suppression

ratio (dB) - 30 - 30 30 30

Min. mean launched power

(dBm) -15 -15 -3 -3 -2 -2

Max. mean launched power

(dBm) -8 -8 +2 +2 +3 +3

Min. extinction ratio (dB) 8.2 8.2 10 10 8.2 8.2

RECEIVER13

(39)

SFP transceiver name OTR4_S3BD OTR4_S5BD OTR4_L3BD OTR4_L5BD OTR16_X49B

D OTR16_X59BD

Application code12 _S3BD _S5BD _L3BD _L5BD _X49BD _X59BD

Min. sensitivity (BER of 1 *

10-12) EOL (dBm) -28 -28 -28 -28 -28 -28

Min. overload (dBm) -8 -8 -8 -8 -6 -6

Max. receiver reflectance (dB) - - - - -27 -27

Max. dispersion (ps/nm) - - - - -

Min. optical return loss of cable

(dB) - - - -

Max. discrete reflectance (dB) - - - - Max. optical path penalty (dB) 1 1 1 1 1 1

4.13 _{Ethernet Specifications}

This section describes the Ethernet specifications for the NPT-1021.

4.13.1 NPT-1021 (Packet Switch without CPS50)

Built-in interfaces on base card 4 x SFP – each can be configured as 100/1000Base-X or 10/100/1000Base-T (with ETGBE) or GPON ONU interface (with GTGBE_L3BD)

8 x RJ-45 – 10/100/1000Base-T, 4 of 8 support PoE Built-in GbE interface type (SFP) 1000Base-SX, LX, EX, ZX, BD, colored

Total number of built-in GbE interfaces 12 Max. number of built-in 1000Base-X ports 4 Max. number of built-in 100Base-FX ports 4 Max. number of built-in

10/100/1000Base-T ports 8 (without ETGBE) _{12 (with ETGBE)} Max number of GPON ONU interfaces 4 (with GTGBE_L3BD) Number of PoE ports 4 x 10/100/1000Base-T PoE PSE pin-out IEEE 802.3af, Alternative A Supported PD type IEEE 802.3at type 1, type 2 Maximum PoE power per port 30 W

Number of Sync-E ports 12 (all GbE ports) Supported types of 1588v2 PTP Clock OC (slave or master)

two-step TC Switch capacity 10 Gbps

(40)

MAC address table capacity 128 K

Supported VLAN quantity 4000 * 4094, as per IEEE 802.1ad Supported C-VLAN groups 16000

512

1Mb/s (2Mb/s~full port rate) CIR granularity of high CoS Shaper 128K~512Kbps@128Kbps

1~16Mbps@1Mbps 16~64Mbps@2Mbps 64~256Mbps@4Mbps 256~1280Mbps@8Mbps CIR granularity of low CoS bandwidth 128K~512Kbps@128Kbps

1~16Mbps@1Mbps 16~64Mbps@2Mbps 64~256Mbps@4Mbps 256~1280Mbps@8Mbps PIR granularity of E-LSP bandwidth 1~No rate limit@1Mb/s Maximum sites per VPLS instance 170-number of local ports Maximum number of UNI/NNI ports per VSI 64

Queues in each egress port 8 MSTP/ERPS instance number 32 Supported maximum multicast groups per

Rooted MP leaf VSI 1024 Max MTU size 9736 bytes

LAG support (including MC-LAG) up to 32 LAGs with up to 8 port members per LAG Supported BFD intervals 3.33 ms, 10 ms, 100 ms, 1000 ms

(41)

Maximum number of BFD sessions 600 Maximum number of BFD sessions over

section Maximum number of ports Maximum number of BFD templates 10

<=500

Port ACL profiles per switch 64 Maximum number of ACE per port ACL

profile 128

RFC5586, RFC5654, RFC5880, RFC5921, RFC6428, RFC6378, RFC6427

ITU-T Y.1710, Y.1711, Y.1731,

4.13.2 _{NPT-1021 (Packet Switch with CPS50)}

Built-in interfaces on CPS50 2 x SFP+ – each can be configured as 10GBase-R/10GBase-W 2 x SFP+/SFP/CSFP compatible – each can be configured as one 1 x 10GBase-R/10GBase-W (with SFP+), 1 x 1000Base-X (with optical SFP), or 2 x 1000Base-X (with CSFP)

Built-in interfaces on base card 4 x 100/1000Base-X (with optical SFP) 8 x 10/100/1000Base-T

Number of PoE ports 4 x 10/100/1000Base-T PoE PSE pin-out IEEE 802.3af, Alternative A Supported PD type IEEE 802.3at type 1, type 2 Maximum PoE power per port 30 W

(42)

Supported types of 1588v2 PTP Clock OC (slave, transparent, or master) two-step TC

Switch capacity 60 Gbps MAC address table capacity 128 K

Supported VLAN quantity 4000 * 4094, as per IEEE 802.1ad Supported C-VLAN groups 16000

512

1Mb/s (2Mb/s~full port rate) CIR granularity of high CoS Shaper 1~16Mbps@1Mbps

16~32Mbps@4Mbps 32~80Mbps@8Mbps 80~128Mbps@16Mbps 128~896Mbps@32Mbps 896, 960, 1280Mbps CIR granularity of low CoS bandwidth ~16Mbps@1Mbps

16~32Mbps@4Mbps 32~80Mbps@8Mbps 80~128Mbps@16Mbps 128~896Mbps@32Mbps

896,960,1280,2048,2560, 3072,4096,5120,10000Mbps PIR granularity of E-LSP bandwidth 1~No rate limit@1Mb/s

Maximum sites per VPLS instance 170-number of local ports Maximum number of UNI/NNI ports per VSI 64

Queues in each egress port 8 MSTP/ERPS instance number 32

(43)

Supported maximum multicast groups per

Rooted MP leaf VSI 1024

LAG support up to 32 LAGs with up to 8 port members per LAG Supported BFD intervals 3.33 msec, 10 msec, 100 msec, 1000 msec

Maximum number of BFD sessions 600 Maximum number of BFD sessions over

section Maximum number of ports Maximum number of BFD templates 10

<=500

RFC5586, RFC5654, RFC5880, RFC5921, RFC6428, RFC6378, RFC6427, RFC2544 (up to 1G)

ITU-T Y.1710, Y.1711, Y.1731,

4.13.3 _{DHGE_4E}

Interface connector type 4 x RJ45

Supported ports 4 x 10/100/1000Base-Tx with PoE+ support PoE PSE pin-out IEEE 802.3af, Alternative A

Supported PD type IEEE 802.3at type 1, type 2 Maximum PoE power per port 30 W

Maximum PoE power per card 62 W Number of Sync-E ports 4 (all ports)

(44)

Number of Sync-E Tx clock domains 2 (System clock, PTP clock) Standards compliance IEEE802.3

ITU-T G.8262

4.13.4 DHGE_8

Interface connector type 4 x SFP

Supported port types 1000Base-SX, LX, EX, ZX, BD, Colored 100Base-FX (SM and MM)

10/100/1000Base-T Maximum number of 1000Base-X ports 8 (with CSFP)

4 (with SFP) Maximum number of 100Base-FX ports 8 (with CSFP)

4 (with SFP)

Maximum number of 10/100/1000Base-T ports 4 (with copper SFP – ETGBE) Number of Sync-E ports 8 (all ports)

Number of Sync-E Tx clock domains 2 (System clock, PTP clock) Standards compliance IEEE802.3

ITU-T G.8262

4.13.5 _{DMCES1_4}

Interfaces 4 x channelized STM-1(SFP) 1 x channelized STM-4 (SFP) 1 x GbE SFP

CES service Unstructured E1 (SAToP) Channelized E1 (CESoPSN) Number of CES services 252

Encapsulation Protocol in standalone mode CESoETH, CESoIP/UDP Encapsulation Protocol in integration mode CESoETH and CESoMPLS CES clock recovery mechanism Adaptive Clock Recovery (ACR)

Differential Clock Recovery (DCR) Reference clock frequency for DCR RTP

timestamp 19.44 MHz _{25 MHz} Number of ACR domains 32

Number of DCR domain 252

E1 Tx Timing mode Recovered from CES stream System timing

Loop timing

Payload time 125~8000us@125us Jitter buffer Max delay var 1000-64000 @1000 µsec

(45)

Jitter buffer Min latency 500-32000 @500 µsec Standards compliance IEFT RFC4553, RFC5086

MEF8, MEF3

ITU-T Y.1413, G.707, G.783

4.13.6 _{MSE1_16}

Interfaces 16 x E1/T1

CES service Unstructured E1/T1 (SAToP) Channelized E1/T1 (CESoPSN) Number of CES service 16

Encapsulation Protocol CESoETH, CESoMPLS CES clock recovery mechanism Adaptive

Differential Reference clock frequency for DCR

RTP timestamp 19.44 MHz _{25 MHz} Adaptive timing domain 16

Differential timing domain 16

Tx Timing mode Recovered from CES stream System timing

Loop timing

Payload time 125~8000us@125us Jitter buffer Max delay var 1000-64000 @1000 µsec Jitter buffer Min latency 500-32000 @500 µsec Standards compliance IEFT RFC4553, RFC5086

MEF8, MEF3 ITU-T Y.1413, G.703

4.13.7 MSC_2_8

Interfaces 2 x Channelized STM-1/OC-3 (SFP) 8 x E1/T1

CES service Unstructured E1/T1 (SAToP) Channelized E1/T1 (CESoPSN) Number of CES service 126 x E1 (over 2 x STM1) + 8 x E1

OR

168 x DS1 (over 2 x OC-3) + 8 x DS1 Encapsulation Protocol CESoETH, CESoMPLS

CES clock recovery mechanism Adaptive Differential

(46)

Reference clock frequency for DCR

RTP timestamp 19.44 MHz _{25 MHz}

Adaptive timing domain 134/176 (Per E1/DS1) Differential timing domain 134/176 (Per E1/DS1) Tx Timing mode Recovered from CES stream

System timing Loop timing

Payload time 125~8000 µsec@125 µsec Jitter buffer Max delay var 1000-64000 @1000 µsec Jitter buffer Min latency 500-32000 @500 µsec Standards compliance IEFT RFC4553, RFC5086

MEF8, MEF3

ITU-T Y.1413, G.703, G.783

4.13.8 _{Ethernet Transceivers}

Table 4-5: GbE/FX client transceivers

OTGBE_SX OTGBE_LX OTGBE_ZX OTGBE_EX OTFE_MM OTFE_SM

Transmitter type GbE/FC1/ FICON(2) short-reach laser, 850 nm, multimode GbE/FC1/ FICON(2) long-reach laser, 1310 nm, single mode GbE/FC1/ FICON(2) very long-reach laser, 1550 nm, single mode GbE/FC1/ FICON(2) very long-reach laser, 1550 nm, single mode FX, short-reach laser, 1310 multimode FX, short-reach laser, 1310 nm, single mode Data rate (nominal) (Gbps) 1.0625/1.25/ 2.125 1.0625/1.25/ 2.125 1.0625/1.25/ 2.125 1.0625/1.25 0.125 0.125 Average launch power (dBm) Max. -3 -3 5 0 -15 -8 Min. -9 -11 0 -5 -20 -15 Min. transmitter extinction ratio (dB) 9 9 9 9 10 8.2

Data format 8B/10B 8B/10B 8B/10B 8B/10B N/A N/A

Average receiver sensitivity (dBm) Min. -20 -22 -22 -24 -31 -28 Typical -21 -25.5 -- -- -30 -- Max. receiver overload (dBm) 0 0 0 0 -14 -8 Typical Rx LOS level (dBm) -24 -29 -25 -25 < -33 < -28 Connector LC LC LC LC LC LC Fiber lengths 550 m (50/62.5 µm MMF) 10 km (9 µm SMF) 80 km (9 µm SMF) 40 km (9 µm SMF) 2000 m (50/62.5 µm MMF) 10 km (9 µm SMF)

NPT Packet System Specifications

Version 4.0

Contents

1

About This Manual ... 1-1

2

Introducing the Packet NPT ... 2-1

3

NPT-1010 Specifications ... 3-1

4

NPT-1021 Specifications ... 4-1

5

NPT-1050 Specifications ... 5-1

6

NPT-1200 Specifications ... 6-1

7

Standards and References ... 7-1

List of Figures

List of Tables

1

About This Manual

1.1

Overview

1.2

Intended Audience

1.3

Document Organization

1.4

Notes and Warnings

N

C

L

W

ESD

T

I

1.5

Related Documentation

1.6

How to Obtain ECI Technical Documentation

1.7

Technical Assistance

2

Introducing the Packet NPT

2.1

Native Packet Transport

2.2

NPT Product Lines: Tailored to Your Needs

2.3

Expansion Platform

3

NPT-1010 Specifications

3.1

NPT-1010 Shelf Capacity

3.2

Cross-Connect Specifications

3.2.1

Switching Specifications

3.3

Redundancy

3.4

Synchronization

3.5

Traffic Protection

3.6

Jitter and Wander

3.7

I/O Interfaces

3.7.1

2.048 Mbps (E1)

3.7.2

1.544 Mbps (T1)

3.8

Management

3.8.1

Management and Alarm Interfaces

3.8.2

Management Communication Channel

3.8.3

Alarms and Performance

_{Intended Audience}

_{Notes and Warnings}

_{Related Documentation}

_{How to Obtain ECI Technical Documentation}

_{NPT Product Lines: Tailored to Your Needs}

_{Cross-Connect Specifications}

_Redundancy

_{Jitter and Wander}

_{I/O Interfaces}

_{2.048 Mbps (E1)}

_{1.544 Mbps (T1)}

_Management

_{Management and Alarm Interfaces}

_{Management Communication Channel}

_{Ethernet Specifications}

_NPT-1010

_{TMSE1_8}

_{CWDM and DWDM GbE}

_{Electrical GbE SFP (ETGbE)}

_{Physical Specifications}

_{Storage (Packed)}

_{Handling and Transportation}

_EMC

_Safety

_Life

_Availability

_{Cross-Connect Specifications}

_Redundancy

_{Synchronization}

_{IEEE 1588v2 Specification}

_{Acoustic Noise}

_{Traffic Protection}

_{Jitter and Wander}

_{I/O Interfaces}

_{2.048 Mbps (E1)}